Products
- Therapeutic Target-Humanized Mice
- Cre/Dre-Driver Mice
U-GEMMs

Toolbox of Mice

Find Cre

Reporters

Target Humanized Knockins

Tumor Targets

Immune Checkpoints

Complements

Cytokines

Cytokine Receptors

Metabolic Targets

Viral Infection Receptors

Other Targets

Disease Mice

Spontaneous Tumor

Rare Disease

Infectious Disease

Nervous System Disease

Cardio-metabolic Disease

Autoimmune Disease

Immune-Related Mice

Humanized Drug Targets

Immunodeficient

Cytokine Reporters

Inducible Cell Ablation

Cell-specific Reporters

Popular Strains

NMG Mice

Humanized PD-1 Mice

Humanized PD-L1 Mice

SmocMab Mice

Other Models

Rats

Humanized Drug Targets

Immunodeficient

Diseases

Reporters

Cre-drivers

Standard Strains

Inbred

Outbred

Cells

Reporter-labeled

Primary

Humanized Drug Targets

Wild-type

Others

Supporting Solutions

Colony Management

Cryopreservation and Cryorecovery

Housing and Management

Genotyping Analysis

Breeding Services

Auxiliary Apparatuses

e-BLOT WB Imaging System
Services
- Therapeutic Target-Humanized Mice
- Cre/Dre-Driver Mice
Model Customization

Gene Editing Technology

ES Cell Targeting

CRISPR Gene Editing

Transgene

Genetically Engineered Type

Conventional Knockout (KO)

Conditional Knockout (CKO)

KO First

Knock-in (KI)

Point Mutation

Conditional Point Mutation

Humanization

Targeted Conditional Overexpression

Random Transgene

Surgery & Preconditioning

Surgery

Preconditioning

Therapeutic Area

Oncology

Syngeneic Models

GEMM-Derived Allografts

Humanized Mice

CDX Models

PDX Models

Humanized Drug Target IO Mice

Nervous System Disease

Parkinson's Disease Mouse Model

Mouse Model of Lumbocrural Pain

Autoimmune Disease

Psoriasis Mice

EAE Mice

Digestive System Disease

Intestinal Inflammation Model

Experimental Model of Liver Fibrosis

Mouse Model of Liver Regeneration

Mouse Model for Gastrectomy

Metabolic Disease

High Fat Diet Induced Diabetic Mice

Preclinical Services

Non-GLP Toxicology

Pharmacokinetics

Phenotype Analysis

Pharmacology & Pharmacodynamics
Resources & Support
- Therapeutic Target-Humanized Mice
- Cre/Dre-Driver Mice
SMOC Blogs

How to Verify Your Cre-lox Model

Basics of Cre-lox and Inducible Cre

Why We Need Humanized Mice

CCR8: A New Star for Immunotherapy

IL-2 and Therapeutics of Cancer and Autoimmunity

Resources

Literature Library

Model Publications

Health Reports

External Resources

Support

Search for Mice

Search for Publications

Frequently Asked Questions (FAQ)

Applications
About Us
- Therapeutic Target-Humanized Mice
- Cre/Dre-Driver Mice
SMOC

Who We are

Credentials

Milestones

Contact Us

Payment Information

Newsroom

News

English
Cart 0

hPSGL-1(2)

Nomenclature

C57BL/6Smoc-Selplg^{em2(hSELPLG)Smoc}

Cat. NO.

NM-HU-210026

Strain State

Embryo cryopreservation

Export PDF

Gene Summary

Gene Symbol
Selplg

Synonyms

CD162; Psgl1; Selp1; Selpl; Psgl-1

NCBI ID

MGI ID

Ensembl ID

ENSMUSG00000048163

Pubmed

Human Ortholog

SELPLG

Model Description

The endogenous mice Selplg gene was completely or partially replaced by human SELPLG gene via CRISPR/Cas9 mediated recombination.

Research Application：inmmue therapy；drug screening

*Literature published using this strain should indicate: hPSGL-1(2) mice (Cat. NO. NM-HU-210026) were purchased from Shanghai Model Organisms Center, Inc..

Validation Data

Fig1. Detection of PSGL-1 expression in thymus and spleen by RT-PCR. Wild type: only one band at 248 bp with primers F1/R1(mPsgl-1);Homozygous: only one band at 237 bp with primers F2/R2(hPSGL-1); Abbr.. M, DNA marker; HO, homozygous; HE, heterozygous; WT, wild type.

Fig2. Detection of hPSGL-1 expression on B cells in blood in hPSGL-1 knockin mice.

Fig3. Detection of hPSGL-1 expression on Monocytes and Granulocytes in blood in hPSGL-1 knockin mice.

Fig4. Detection of hPSGL-1 expression on B cells in bone morrow in hPSGL-1 knockin mice.

Fig5. Detection of hPSGL-1 expression on Monocytes and Granulocytes in bone morrow in hPSGL-1 knockin mice.

Fig6. Detection of hPSGL-1 expression on T cells in bone morrow in hPSGL-1 knockin mice.

Fig7. Detection of hPSGL-1 expression on NKs and DCs in bone morrow in hPSGL-1 KI mice.

Fig8. Detection of hPSGL-1 expression on B cells in spleen in hPSGL-1 KI mice.

Fig9. Detection of hPSGL-1 expression on Monocytes and Granulocytes in spleen in hPSGL-1 knockin mice.

Fig10. Detection of hPSGL-1 expression on T cells in Thymus in hPSGL-1 knockin mice.

You may also like

Shanghai Model Organisms Center Inc has licensed CRISPR-Cas9 technology from Broad Institute

On Dec 16, 2018, Broad Institute and Shanghai Model Organisms Center Inc (SMOC) has entered into a non-exclusive license agreement under which Broad has granted SMOC worldwide rights to commercialize a service platform for genetically modified mouse models under Broad's intellectual property.

Learn more

Customizing Mouse Models: Delivering in 100 Days to Speed Up Your Research!

At GenoBioTX, we understand that the lengthy wait times for gene-modified mouse models can hinder your research progress. Traditional methods often require 6-9 months, leading to delays and increased costs. That’s why we’re thrilled to introduce our innovative service designed to streamline this process and deliver results faster.

Learn more

Contact Back to top